Map of Earthquake Prone Areas Using Geographic Information Systems Peta Daerah Rawan Gempa Menggunakan Sistem Informasi Geografis

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Rafki Imani
Heriyanto Heriyanto

Abstract

This study aims to map the earthquake prone areas, and identify the nearest alternative route for evacuation of earthquake victims in Singkarak District, Solok Regency, West Sumatra. This research method was conducted with descriptive methods that analyzed by GIS (Geographic Information System) based on intensity scale (MMI). The results of this study stated that 90% of villages in Singkarak District had a high earthquake intensity, with an acceleration of the land surface of more than 0.34 g. For evacuation areas can be directed away from areas with steep cliffs and areas close to high buildings and should be directed in the direction close to Lake Singkarak, because the area around this has a low earthquake risk with earthquake acceleration of only 0.1 g.

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Imani, R., & Heriyanto, H. (2019). Map of Earthquake Prone Areas Using Geographic Information Systems. Jurnal KomtekInfo, 6(2), 169-178. https://doi.org/https://doi.org/10.35134/komtekinfo.v6i2.1042
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Sistem Informasi Geografis
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References

[1] H. Agustin, “Persepsi Masyarakat Kenagarian Sumani Tentang Kesiapsiagaan Bencana Gempa Bumi (Perception of the society of Sumani Village about Disaster Preparedness),” Jurnal Kesehatan Komunitas, 2(5), 199–206, 2014.
[2] D. H Natawidjaja, “Gempa Bumi dan Tsunami di Sumatra dan Upaya Untuk Mengembangkan Lingkungan Hidup Yang Aman Dari Bencana Alam,” Portal Geospasial, Kementerian Lingkungan Hidup, 1–3 (December), 66, 2007.
[3] H. Nakai, T. Itatani, R. Horiike, K. Kyota, K. Tsukasaki, “Tsunami evacuation simulation using geographic information systems for homecare recipients depending on electric devices,” PLoS ONE, 13(6), 1–10. https://doi.org/10.1371/journal.pone.0199252, 2018.
[4] Y. Yuhendra, A. N. D. Syafrudin, “Sistem Informasi Geografis Pemetaan Jalur Evakuasi Tsunami Berbasis Web (Studi Kasus : Kecamatan Tanjung Mutiara Kabupaten Agam),” Peranan Ipteks Menuju Industri Masa Depan (PIMIMD-4), 91–96, 2017.
[5] D. M. Putra, R. Esanudin, “Review Jurnal Sistem Informasi Geografis Untuk Pemetaan Daerah Rawan Gempa Tektonik Dan Jalur Evakuasi di Yogyakarta,” UNIVERSITAS SEBELAS MARET TAHUN AKADEMIK 2013. Jurnal Penelitian IPTEK-KOM, 14, 1–7, 2013.
[6] BMKG, “Katalog Gempabumi Signifikan dan Merusak 1821 – 2017,” Jakarta: Pusat Gempabumi dan Tsunami Badan Meteorologi Klimatologi dan Geofisika, 2018.
[7] R. Imani, U. D. Arman, W. Boy, “Correlation between type of ground-based on b-value and the impact on buildings due to Sumatra earthquakes,” MATEC Web of Conferences, 02013(229), 2018.
[8] BPS Kabupaten Solok, “Badan Pusat Statistik Kabupaten Solok. Kabupaten Solok: Pemerintah Daerah Kabupaten Solok,” 2018.
[9] Z. Netrisa, Syafriani, R. Triyono, H. Arifin, “Pemetaan Bahaya Gempabumi Deterministik dengan Pendekatan Peak Ground Acceleration ( PGA ) di Kota Padang,” Pillar of Physics, 11(2), 41–48, 2018.
[10] BPBD Sumbar, “Peta Bahaya Gempa Bumi Zona Patahan Provinsi Sumatera,” 2019.
[11] BNPB, “ Laporan Kinerja Tahun 2018. Badan Nasional Penanggulangan Bencana,” 2018.
[12] Undang-undang Republik Indonesia Nomor 24 Tahun 2007 Tentang Kebencanaan, 2007.
[13] A. Mustofa, A. Rosidi, A. Sofyan, “Analisis Sistem Informasi Geografis Untuk Bencana Gempa Bumi Terintegrasi Di Daerah Istimewa Yogyakarta. Data Manajemen dan Teknologi Informasi (DASI),” 16(2), 19, 2015.
[14] A. Rezki, “Aplikasi Sistem Informasi Geografis (SIG) untuk Analisis Akses Terdekat dan Jumlah Pergerakan Penduduk Melewati Jalur Evakuasi di Kota Padang,” Jurnal Spasial Program Studi Pendidikan Geografi STKIP PGRI Sumatera Barat, 40–54, 2015.
[15] K. Naghdi, A. Mansourian, M. J. Valadanzoej, M. Saadatseresht, “Evacuation planning in earthquake disasters, using RS & GIS. The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences,” XXXVII (January), 1671–1676, 2008.
[16] A. Ekadinata, S. Dewi, D. P. Hadi, D. K. Nugroho, F. Johana, “Sistem Informasi Geografis Untuk Pengelolaan Bentang Lahan Berbasis Sumber Daya Alam.” Bogor: World Agoforestry Centre ICRAF South East Asia Regional Office, 2008.
[17] Mariopiss, "Pemanfaatan SIG (System Information Geografis) Untuk Mitigasi Bencana," Diambil dari http://mariopiss.wordpress.com/2017/04/13/pemanfaatan-sig-system-information-geografis-untuk-mitigasi-bencana/, 2018.
[18] N. Inopianti, “Pemanfaatan aplikasi sistem informasi geografis (sig) dan penginderaan jauh untuk pemetaan daerah rawan kekeringan di kabupaten sukabumi,” Universitas Islam Negeri Syarif Hidayatullah Jakarta, 2017.
[19] R. Imani, U. D. Arman, W. Boy, “Correlation between type of ground-based on b-value and the impact on buildings due to Sumatra earthquakes,” MATEC Web of Conferences, 02013(229), 2018.
[20] D. M. Putra, R. Esanudin, “Review Jurnal Sistem Informasi Geografis Untuk Pemetaan Daerah Rawan Gempa Tektonik Dan Jalur Evakuasi di Yogyakarta, ”UNIVERSITAS SEBELAS MARET TAHUN AKADEMIK 2013. Jurnal Penelitian IPTEK-KOM, 14, 1–7, 2013.
[21] P. K. L. Utama, A. F. Sofyan, “Perancangan dan Implementasi Sistem Informasi Geografis Lokasi Hotel di Yogyakarta Menggunakan SVG,” Jurnal Dasi, 11(1), 1–11, 2010.